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Fault-Tolerance Techniques for High-Performance Computing

Herault Thomas Robert Yves
Heftet / 2016 / Engelsk

Produktdetaljer

ISBN
9783319355603
Publisert
2016-10-15
Utgiver
Vendor
Springer International Publishing AG
Høyde
235 mm
Bredde
155 mm
Aldersnivå
Research, P, 06
Språk
Product language
Engelsk
Format
Product format
Heftet

Redaktør
Herault Thomas
Robert Yves

Fault-Tolerance Techniques for High-Performance Computing

Herault Thomas Robert Yves
Heftet / 2016 / Engelsk
Herault Thomas Robert Yves
Heftet / 2016 / Engelsk
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This timely text presents a comprehensive overview of fault tolerance techniques for high-performance computing (HPC). The text opens with a detailed introduction to the concepts of checkpoint protocols and scheduling algorithms, prediction, replication, silent error detection and correction, together with some application-specific techniques such as ABFT. Emphasis is placed on analytical performance models. This is then followed by a review of general-purpose techniques, including several checkpoint and rollback recovery protocols. Relevant execution scenarios are also evaluated and compared through quantitative models. Features: provides a survey of resilience methods and performance models; examines the various sources for errors and faults in large-scale systems; reviews the spectrum of techniques that can be applied to design a fault-tolerant MPI; investigates different approaches to replication; discusses the challenge of energy consumption of fault-tolerance methods in extreme-scale systems.
Les mer
This timely text presents a comprehensive overview of fault tolerance techniques for high-performance computing (HPC).

Part I: General Overview.- Fault-Tolerance Techniques for High-Performance Computing.- Part II: Technical Contributions.- Errors and Faults.- Fault-Tolerant MPI.- Using Replication for Resilience on Exascale Systems.- Energy-Aware Check pointing Strategies.

Les mer

This timely text/reference presents a comprehensive overview of fault tolerance techniques for high-performance computing (HPC).

The text opens with a detailed introduction to the concepts of checkpoint protocols and scheduling algorithms, prediction, replication, silent error detection and correction, together with some application-specific techniques such as algorithm-based fault tolerance. Emphasis is placed on analytical performance models. This is then followed by a review of general-purpose techniques, including several checkpoint and rollback recovery protocols. Relevant execution scenarios are also evaluated and compared through quantitative models.

Topics and features:

  • Includes self-contained contributions from an international selection of preeminent experts
  • Provides a survey of resilience methods and performance models
  • Examines the various sources for errors and faults in large-scale systems, detailing their characteristics, with a focus on modeling, detection and prediction
  • Reviews the spectrum of techniques that can be applied to design a fault-tolerant message passing interface
  • Investigates different approaches to replication, comparing these to the traditional checkpoint-recovery approach
  • Discusses the challenge of energy consumption of fault-tolerance methods in extreme-scale systems, proposing a methodology to estimate such energy consumption

This authoritative volume is essential reading for all researchers and graduate students involved in high-performance computing.

Dr. Thomas Herault is a Research Scientist in the Innovative Computing Laboratory (ICL) at the University of Tennessee Knoxville, TN, USA. Dr. Yves Robert is a Professor in the Laboratory of Parallel Computing at the Ecole Normale Supérieure de Lyon, France, and a Visiting Research Scholar in the ICL.

Les mer
The first complete overview of this increasingly important field Presents a unique, rigorous approach based on the design of analytical models to predict performance Provides a coherent collection of valuable insights from internationally-renowned experts with considerable expertise Includes supplementary material: sn.pub/extras
Les mer

Relaterte produkter

This timely text presents a comprehensive overview of fault tolerance techniques for high-performance computing (HPC). The text opens with a detailed introduction to the concepts of checkpoint protocols and scheduling algorithms, prediction, replication, silent error detection and correction, together with some application-specific techniques such as ABFT. Emphasis is placed on analytical performance models. This is then followed by a review of general-purpose techniques, including several checkpoint and rollback recovery protocols. Relevant execution scenarios are also evaluated and compared through quantitative models. Features: provides a survey of resilience methods and performance models; examines the various sources for errors and faults in large-scale systems; reviews the spectrum of techniques that can be applied to design a fault-tolerant MPI; investigates different approaches to replication; discusses the challenge of energy consumption of fault-tolerance methods in extreme-scale systems.
Les mer
This timely text presents a comprehensive overview of fault tolerance techniques for high-performance computing (HPC).

Part I: General Overview.- Fault-Tolerance Techniques for High-Performance Computing.- Part II: Technical Contributions.- Errors and Faults.- Fault-Tolerant MPI.- Using Replication for Resilience on Exascale Systems.- Energy-Aware Check pointing Strategies.

Les mer

This timely text/reference presents a comprehensive overview of fault tolerance techniques for high-performance computing (HPC).

The text opens with a detailed introduction to the concepts of checkpoint protocols and scheduling algorithms, prediction, replication, silent error detection and correction, together with some application-specific techniques such as algorithm-based fault tolerance. Emphasis is placed on analytical performance models. This is then followed by a review of general-purpose techniques, including several checkpoint and rollback recovery protocols. Relevant execution scenarios are also evaluated and compared through quantitative models.

Topics and features:

  • Includes self-contained contributions from an international selection of preeminent experts
  • Provides a survey of resilience methods and performance models
  • Examines the various sources for errors and faults in large-scale systems, detailing their characteristics, with a focus on modeling, detection and prediction
  • Reviews the spectrum of techniques that can be applied to design a fault-tolerant message passing interface
  • Investigates different approaches to replication, comparing these to the traditional checkpoint-recovery approach
  • Discusses the challenge of energy consumption of fault-tolerance methods in extreme-scale systems, proposing a methodology to estimate such energy consumption

This authoritative volume is essential reading for all researchers and graduate students involved in high-performance computing.

Dr. Thomas Herault is a Research Scientist in the Innovative Computing Laboratory (ICL) at the University of Tennessee Knoxville, TN, USA. Dr. Yves Robert is a Professor in the Laboratory of Parallel Computing at the Ecole Normale Supérieure de Lyon, France, and a Visiting Research Scholar in the ICL.

Les mer
The first complete overview of this increasingly important field Presents a unique, rigorous approach based on the design of analytical models to predict performance Provides a coherent collection of valuable insights from internationally-renowned experts with considerable expertise Includes supplementary material: sn.pub/extras
Les mer

Produktdetaljer

ISBN
9783319355603
Publisert
2016-10-15
Utgiver
Vendor
Springer International Publishing AG
Høyde
235 mm
Bredde
155 mm
Aldersnivå
Research, P, 06
Språk
Product language
Engelsk
Format
Product format
Heftet

Redaktør
Herault Thomas
Robert Yves

Relaterte produkter